Abstract
Greenland ice cores provide information about past climate. However, the number of firn and ice cores from Greenland are limited and thus the spatial variability of the chemical impurities used as proxies is largely unconstrained. Furthermore, few impurity records covering the past two decades exist from Greenland. We have by means of Continuous Flow analysis investigated 6 shallow firn cores obtained in Northern Greenland as part of the NEEM to EastGRIP traverse in 2015. The oldest reach back to 1966. The annual mean and quartiles of the insoluble dust, ammonium, and calcium concentrations in the 6 firn cores spanning a distance of 426 km overlap, and also the seasonal cycles have similar peaks in timing and magnitude across sites. Peroxide (H2O2) is accumulation dependent and varies from site to site and conductivity, likely influenced by sea salts, also vary spatially. The temporal variability of the records is further assessed. We find no evidence for increases in total dust concentration, but find an increase in the large dust particle fluxes that we contribute to an activation of Greenland local sources in the recent years (1998–2015). We observe the expected acid and conductivity increase in the mid 70’s as a result of anthropogenic contamination and the following decrease due to mitigation. After detrending using the five year average the conductivity and acid records several volcanic horizons were identified and associated with Icelandic eruptions and volcanic eruptions in the Barents sea region. By creating a composite based on excess ammonium compared to the five year running average, we obtain a robust forest fire proxy associated primarily with Canadian forest fires (R = 0.51). We also note that the peak ammonium in the individual firn cores appear more scattered between cores than the peak volcanic layers, suggesting that the forest fire signal is more dispersed in the atmosphere than the acid from volcanic eruptions.
Highlights
The accumulation and preservation of past snowfall as glacier ice stores an abundance of information regarding past environmental conditions that can be retrieved through intricate physical and chemical analyses of polar ice cores
The cores T2015-A2, T2015A3 and T2015-A6 offer a first view on the total amount and seasonal cycles of impurities deposited to their specific central north locations
The core T2015-A1 adds to the array of cores previously drilled at the NEEM site, whilst T2015-A4 and
Summary
The accumulation and preservation of past snowfall as glacier ice stores an abundance of information regarding past environmental conditions that can be retrieved through intricate physical and chemical analyses of polar ice cores. For Greenland, water isotopes and deuterium excess can provide information on average temperatures and ice volumes 5 (Johnsen et al, 1989; Dansgaard, 1964), dust layers provide constrains on large scale atmospheric circulation patterns and desertification (Fischer et al, 2007; Ruth et al, 2002; Marius Folden Simonsen et al, 2019), sodium and other sea salts further constrain atmospheric transport, while simultaneously informing on oceanic conditions (Schüpbach et al, 2018; Fischer et al, 2007; Rhodes et al, 2018), and ammonium peak concentrations provide evidence of forest fire activity and global vegetation coverage (e.g. Legrand et al, 1992; Legrand et al, 2016) Often these proxies exhibit annual cycles in the composition and 10 concentration due to natural cycles in their atmospheric concentration and as a result of temperature, accumulation and wind fluctuations at deposition site. The sites chosen represent the lower accumulation area in the central North Greenland and has only limited prior analysis of this kind (Du et al, 2019; Vallelonga et al, 2014; Fischer et al, 1998; Gfeller et al, 2014; Schüpbach et al, 2018; Kjær et al, 2021a)
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